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남소정(So-Jeong Nam),김세련(Sea-Ryon Kim),평우진(Woo-Jin Pyung),강유진(Yujin Kang),김수민(Sumin Kim) 한국가구학회 2016 한국가구학회지 Vol.27 No.3
From 2000s, modular construction has gained more attention due to many advantages such as reduction of duration, recycling. The modular structure is being used for urban regeneration recently. However, even though most facilities in the modular structures which are used as urban regeneration building are commercial spaces, exhibition spaces, eating and drinking spaces, there are lack of natural or mechanical ventilation systems. Also, there are relatively limited spaces on modular structure characteristic. Therefore, indoor environment performance of four buildings, which are performed as urban regeneration in Seoul, was evaluated by HCHO and CO₂ emissions. Consequently, the HCHO and CO₂ emissions of the commercial and exhibition spaces were confirmed that can influence on health of occupants. Therefore, the urban regeneration modular structure needs to add local ventilation systems for improvement of indoor air quality to more healthy and comfortable.
남소정(So Jeong Nam),이승우(Seung Woo Lee),이재경(Jai-Kyung Lee) 대한기계학회 2012 대한기계학회 춘추학술대회 Vol.2012 No.11
Many studies are performed regarding the method of collecting field data in real time. The importance of real-time data in the production site is highlighted because of IT application to the production and manufacturing industry. Equipment operation information can be an important basis to improve enterprises’ competitiveness when the production site is monitored in real time and the production power is analyzed and provided by upper-level systems, such as the manufacturing execution system and ERP. This study introduces a method of collecting the equipment operation information in real time using a PLC. If the information cannot be extracted as digital data, analog information can be collected instead using temperature or current sensors. As a result, scalability and real time can be applied when collecting equipment operation information. The operation information collected in real time can be effectively utilized as the basic data for production statistics, equipment control, and malfunction diagnosis of equipment through the interface with the manufacturing execution system.
남소정(So-Jeong Nam),이재경(Jai-Kyung Lee),이승우(Seung Woo Lee),박종권(Jong Kweon Park) 한국생산제조학회 2011 한국생산제조시스템학회 학술발표대회 논문집 Vol.2011 No.4
The thermal error is a very important factor in the accuracy of machine tools. This paper proposes a system which enables real-time based measurement and compensation of thermal error of machines. The system was designed with the sensors having appropriate measurement ranges for the purposes, set up on the related points of a micro-machine to measure data in real-time basis, and DAS built-in with a data collection module which enables the operator to monitor and respond to the micro-machine in real-time basis.
다양한 생산 설비와의 인터페이스를 고려한 설비정보 수집
남소정(So Jeong Nam),이재경(Jai-Kyung Lee),이승우(Sung Woo Lee),박종권(Jong Kweon Park) 대한기계학회 2011 大韓機械學會論文集A Vol.35 No.2
다양한 생산 설비에 따른 설비정보를 MES 등의 생산시스템에 효율적으로 제공하기 위해 설비 정보 수집 시스템은 생산현장의 설비 및 공정특성을 고려한 다양한 설비 인터페이스에 따른 정보수집이 필요하다. 본 연구에서는 생산현장의 다양한 생산 설비의 정보를 수집하기 위해 설비 인터페이스를 통한 설비정보 수집 방법을 제안한다. PLC 기반의 인터페이스, Sensor 기반의 I/O 인터페이스, 작업자 Key-In 에 의한 인터페이스 등 다양한 설비 인터페이스를 통해 생산 현장의 정보를 1 차 수집할 수 있다. 데이터 수집 시스템은 H/W Communication Module 과 Operator Key-In Module 을 이용하여 설비 인터페이스를 통해 수집되는 설비 정보를 2 차 가공하며, 데이터 파서(Data Parser)를 통해 수집 정보의 유연성을 높일 수 있다. There is much information of equipment in shop floor because the manufacturing processes are different as the equipment within the manufacturing process is varied. To provide effective process information to MES and other production systems, the DAS requires an equipment monitoring system that takes into account the characteristics of the equipment on the shop floor. In this study, we proposed some methods for collecting the required information about various equipments on a shop floor. The equipments such as CNC can be interfaced with the DAS by using a PLC-based method and a sensor-based interface board can be used to interface general equipments. The proposed methods can be used to collect information on the shop floor in real-time. Moreover these methods are very adaptive and can be easily modified according to the changes made to the shop floor. The information about a real shop floor acquired by employing these methods is saved in a database and the can be provided to a supervisor and MES so that they are aware of the status of the shop floor.